The 24 May 2014 (Mw6.8) earthquake (North Aegean Trough): Spatiotemporal evolution,source and slip model from teleseismic data     

《Physics and Chemistry of the Earth》2016

We use teleseismic data to calculate the source model of the 24 May 2014 earthquake and regional catalogues to examine the spatial-temporal characteristics of the sequence. The sequence started in Saros Basin but almost simultaneously aftershocks spread along a ∼200 km zone, activating the entire North Aegean Trough. The aftershock sequence was rich in moderate (M < 4) size events, but very deficient in strong events – only two Mw4.9 aftershocks-a characteristic observed in previous sequences in the region. The teleseismic waveforms were best fit by two sub-events, which were lagged by 18 s in time and by a 50 km jump in space, along the same fault line. The centroid depth of the first sub-event is 22 km, at the base of the lower crust, and for the second is 14 km. The resolved total source time function is ∼30 s. The finite-fault slip model is characterized by an asymmetric bilateral rupture propagation, to the west and east of the hypocentre. The major slip is confined downdip from the hypocentre, within the deeper 12–25 km part. This deep slip migrated updip from the hypocentre to form the second slip patch, in the eastward segment. In all our models the maximum dislocation was of the order of 1 m. For our preferred model parametrization, the rupture speed is 3 km/s, and the scalar moment equal to 1.76 × 10¹⁹ Nm (Mw6.8). This earthquake highlighted the fact that strike-slip faulting in the North Aegean Sea, can attain large lengths and activate very wide zones, reaching densely populated regions.  相似文献   

Ordovician system     

Maxwell R. Banks  A. H. Blissett  K. L. Burns  B. Campana  R. G. Elms  I. B. Jennings 《Australian Journal of Earth Sciences》2013,60(2):147-176

Rocks in the Brungle‐Darbalara area of the Tumut Trough form two distinct domains: basement (mainly Bullawyarra Schist), of Cambrian‐Ordovician age, and an Ordovician ‐ Early Silurian sedimentary and volcanic cover sequence. These two domains are separated by a sharp discontinuity that marks an abrupt change in rock type, structure, metamorphic grade and deformation style. Cover sequences have undergone only one major penetrative deformation during the Late Silurian, involving sub‐greenschist facies metamorphism and upright folding. In contrast, the basement also underwent at least two older deformations at greenschist facies and contains distinct high‐strain zones subconcordant with the basement‐cover contact. The high‐strain zones, characterized by a ubiquitous south‐southeast trending mineral lineation, record a discontinuous history of ductile followed by brittle behaviour, consistent with an extensional origin.

The structural and metamorphic discontinuity separating basement from Silurian cover is characterized by widespread cataclasis and alteration and is interpreted as a major detachment fault associated with lithospheric extension and the development of the Tumut Trough in the Early Silurian. During the main period of movement on the detachment, which took place prior to intrusion of the Blacks Flat Diorite into the Bullawyarra Schist, mafic and serpentinized ultramafic rocks either were tectonically emplaced or intruded into the high strain zones. This preceded and accompanied extensional faulting of the cover and deposition of Silurian trough sediments and volcanics which unconformably overlie and onlap older units.

The development of the Tumut Trough, in the Brungle‐Darbalara area, bears many similarities with that of Cordilleran metamorphic core complexes. Such a model is consistent with environments suggested for the trough by previous workers. The south‐southeast extension direction parallels the trough‐bounding faults and implies an overall strike‐slip tectonic setting.  相似文献   

88ka以来冲绳海槽北部古环境演化:来自元素地球化学的证据   总被引：1，自引：1，他引：0  

朱爱美  石学法  邹建军  张辉  吴永华  刘焱光 《海洋学报》2015,37(6):58-69

对CSH1岩心全样沉积物样品进行元素地球化学分析,揭示了过去88ka冲绳海槽北部沉积物成分、水动力条件及陆源碎屑物质源区风化历史。冲绳海槽北部碎屑沉积物母岩主要以长英质为主,在MIS 1期沉积物存在大量火山源物质。过去88ka,沉积物源区风化程度较弱,但是自冰消期以来有逐渐增强的趋势。沉积物Zr/Nb比值表明在MIS 1期和MIS 5.1期水动力较为强烈,这与黑潮增强的时间一致,可能是指示黑潮强度的一个指标。冲绳海槽北部陆坡沉积物陆源碎屑贡献在低海平面时期显著增加,而在MIS 1和MIS 5.1期生源贡献显著增加。冲绳海槽北部沉积物成分变化明显受到黑潮和入海径流的调节,实际上受海平面和东亚季风的制约。  相似文献   

浙江沿海潜在区域地震海啸风险分析   总被引：3，自引：2，他引：1  

毛献忠  祝倩  Wei Yong 《海洋学报》2015,37(3):37-45

采用COMCOT海啸模型建立三重网格模型模拟了2011年3月11日日本东北部9.0级地震引发的海啸发生、发展以及在我国东南沿海传播过程。震源附近浮标站以及浙江沿海的潮位站实测资料验证结果显示,大部分监测站首波到达时间和海啸波的计算值相差在15%以内,表明模型可较好的模拟海啸在计算域内的传播过程。研究表明日本南海海槽、冲绳海槽以及琉球海沟南部是影响浙江沿海主要的区域潜在震源,通过情景计算分别模拟3个潜在震源9.1级、8.0级和8.7级地震引发的海啸对浙江沿海的海啸风险,计算结果表明,海啸波产生后可在3~8h内传至浙江省沿岸,海啸波达1~3m,最大可达4m,此时浙江沿岸面临Ⅲ~Ⅳ级海啸风险,达到淹没至严重淹没等级。  相似文献   

东海冲绳海槽天然气水合物成矿地质条件与资源潜力     

陈建文 《地球学报》2014,35(6):726-732

冲绳海槽位于东海的东部,区内天然气水合物调查研究程度低。本文分析了冲绳海槽的区域地质背景和天然气水合物调查研究现状,根据已有资料和前人研究成果,分析了研究区天然气水合物形成的地形地貌、水深、温度、热流值特征,地层、沉积、构造、气源等条件,以及区内存在天然气水合物的地球物理、地球化学和其他证据,在此基础上推测区内天然气水合物成藏存在4种可能的地质类型。即成岩型、断裂构造型、底劈构造型和滑塌型。研究认为,冲绳海槽天然气水合物资源潜力巨大。  相似文献   

测井储集层快速自动评价在东海西湖凹陷中的应用     

陶志江  许方伟  蔡洪正 《上海国土资源》2001,(3):36-42

结合东海西湖凹陷油气勘探需要，在现场提出自动评价储集层系统，应用人工智能技术，识别储集层和判断含油、气储集层。模拟计算油气储集层产能。  相似文献   

Seismicity and stress field in Okinawa Trough and Ryukyu regions     

黄培华  苏维加  陈金波 《地震学报(英文版)》1994,7(4):513-520

（黄培华）（苏维加）（陈金波）ＳｅｉｓｍｉｃｉｔｙａｎｄｓｔｒｅｓｓｆｉｅｌｄｉｎＯｋｉｎａｗａＴｒｏｕｇｈａｎｄＲｙｕｋｙｕｒｅｇｉｏｎｓ￥Ｐｅｉ－ＨｕａＨＵＡＮＧ；Ｗｅｉ－ｊｉａＳＵａｎｄＪｉｎ－ＢｏＣＨＥＮ（ＤｅｐａｒｔｍｅｎｔｏｆＥａｒｔｈａ...  相似文献   

BSRs and Associated Reflections as an Indicator of Gas Hydrate and Free Gas Accumulation: An Example of Accretionary Prism and Forearc Basin System along the Nankai Trough, off Central Japan   总被引：1，自引：0，他引：1  

Kei Baba  Yasuhiro Yamada 《Resource Geology》2004,54(1):11-24

Abstract. Multi-channel seismic data obtained from the Nankai accretionary prism and forearc basin system has been studied to elucidate the migration and accumulation process of gas to the BGHS and examine the distribution pattern of BSRs and characteristic reflections associated with them.
BSRs are distributed widely in the Nankai accretionary prism and associated forearc basins (33,000 km²) and 90 % of them have migration and recycling origins. The widest distribution of the BSRs can be seen at the prism. A correlation between the BSR distributions and prism size shows that the BSRs tend to be more well-developed in a prism of large size. This suggests that a large prism may produce much amount of gas-bearing fluids that migrate to the BGHS and form the BSRs (tectonic control), hi the forearc basins, the BSRs are identified at topographic highs, anticlines and basin margins (structural control).
The upward migration of gas-bearing fluids is carried out through permeable sand layers and as a result, the distribution of BSRs is confined to alternating beds of sand and mud facies (sedimentary control). However, if there is enough time for upward migration and accumulation of gas to the BGHS, the BSRs can be generated widely in low-permeable mud facies (time control).
Those results imply that structural, tectonic, sedimentary and time controls are primary factors to decide the distribution of BSRs in the Nankai Trough area.  相似文献   

Overview of the MITI Nankai Trough Wells: A Milestone in the Evaluation of Methane Hydrate Resources   总被引：4，自引：0，他引：4  

Yoshihiro Tsuji    Hisashi Ishida    Masaru Nakamizu    Ryo Matsumoto  Satoshi Shimizu 《Resource Geology》2004,54(1):3-10

Abstract. Bottom-simulating reflectors suggestive of the presence of methane hydrates are widely distributed below the ocean floor around Japan. In late 1999, drilling of the MITI Nankai Trough wells was conducted to explore this potential methane hydrate resource and a Tertiary conventional structure. The wells are located in the Northwest Pacific Ocean off Central Japan at a water depth of 945 m. A total of six wells were drilled, including the main well, two pilot wells, and three post survey wells at intervals of 10–100 m. All wells except the first confirmed the occurrence of hydrates based on logging-while-drilling, wire-line logging and/or coring using a pressure and temperature coring system in addition to conventional methods. Based on the various well profiles, four methane hydrate-bearing sand-rich intervals in turbidite fan deposits were recognized. Methane hydrates fill the pore spaces in these deposits, reaching saturation of up to 80 % in some layers. The methane hydrate-bearing turbiditic sand layers are less than 1 m thick, with a total thickness of 12–14 m. The bottom depth of high hydrate concentration correlates well with the depth of the bottom-simulating reflector. Based on these exploration results, the Japanese government inaugurated a 16-year methane hydrate exploitation program in 2001.  相似文献   

Vector magnetic analysis within the southern Ayu Trough, equatorial western Pacific   总被引：2，自引：1，他引：2  

Sang-Mook Lee  Seung-Sep Kim 《Geophysical Journal International》2004,156(2):213-221

  相似文献